FR2948501A1 - Method for construction of cabled computer network i.e. local area network, in room of e.g. building, involves placing cables on utilization place after installation of connectors, where each connector is assembled on cables in mold - Google Patents

Abstract

The method involves determining length of appropriate cables for linking connectors (6) on an end of the cables by definitively fixing the cables containing pairs of twisted conductors through injection of a material in a factory, before installation of cables, where the injection of the material immobilizes conductors in an envelope of the connectors. The cables are placed on an utilization place after the installation of the connectors. Each connector is assembled on the cables in a mold (10).

Description

METHOD FOR CONSTRUCTING A NETWORK IN A BUILDING The invention relates to a method of constructing a wired computer network for buildings. These networks are called "local networks" because their extent is totally controlled by the company (or entity) that owns them. By network will be understood all the cables that connect the server or similar means to fixed sockets dispersed in the premises. Buildings used for administrative or economic purposes (public or private administrations, industries, businesses, services, etc.) are often occupied by entities that make extensive use of IT resources to work and communicate. The IT resources used by these entities are networked to communicate from one computer station to any other network station and also to communicate with the outside world. The communication between the posts is made by wire.

The construction of a network begins with the passage of cables in the canalis, marine slabs or in ducts. Cables on standby have excess length. It is then that the cables will be connected to connectors at each end by operators working on the site to be installed. There are star, ring or bus networks generally called "link chain". The link chain is the solution that includes all the cabling from the server to the workstation. The network distributes server information (usually placed in a server bay connected to a patch bay in the technical room) to the various desktops in the offices. To build the network, there are different types of cables, coaxials, twisted pair cables, and fiber optic cables. These cables are used depending on whether it is the vertical infrastructure of the network or the horizontal infrastructure. Vertical Infrastructure: 30 Is usually made of fiber optics. But there are also infrastructures made of copper cable.

Horizontal Infrastructure: Almost always made of copper cables. There are some exceptions in which the horizontal cabling will be fiber-optic to the terminal at the workstation (In the user's office).

In modern buildings, horizontal cabling starts at the splitter or sub-distributor fixed in the false ceiling or false floor. In old buildings, there are no false floors and false ceilings. Dispatchers will be wall mounted or fixed in chutes. "The link" is therefore the cable with two female connectors at each end distributing information from the technical room to the workstation (user's computer) for small installations. For larger installations, the "link" will connect the workstation to the dispatcher or sub-distributor. (The female connector arriving at the workstation is fixed in the wall in a plastron).

The link is made with twisted pair low current conducting cables. There are four families of twisted pair low-current cables, UTPs, FTPs, SFTPs and S-STPs. These cables may meet different standards: Category 5 (Frequency at 100 MHz), Category 6 (Frequency at 250 MHz), Category 6A (Frequency at 500 MHz), Category 7 (Frequency at 600 MHz), Category 7a (Frequency at 1000 Mhz),

- Category 7+ (Frequency at 1200 MHz). It is known to preinstall these cables in the building. These are put in place during the construction and later technicians will come to connect the cables to RJ 45 type female connectors.

As mentioned above, these female connectors connected to the cables will allow to connect to the server or other similar means. The network will thus be able to carry information from the server to the workstation. The "Link" establishes continuity between the computer at the workstation and the dispatcher or server directly depending on the case and the size of the installation. These twisted pair low current cables, also known as "conductors" made of copper or alloy, are intended to carry digital signals of the 0/1 type. A conductive type cable used for networks comprises at least one pair of twisted and electrically isolated electrical conductors but more commonly 4-pair and 2-4-pair cables are used. All twisted pairs can be protected by grounded electromagnetic shielding for the FTP, SFTP and S-STP cable families. All cables are then protected by a protective sheath of plastic material or LSOH. With computers becoming faster and faster, the volume of information and the speed of transmissions tend to increase more and more, which can not be done without constraints on both computers and networks. The amount of information transmitted per unit of time and the quality of the information (signals) received depends not only on the quality of the cable, its length but very significantly on how to connect the end of the cable to the connector. Thus, the radius of curvature of the cable, the detorsading pairs of conductors, the more or less long removal of the grounding envelope are parameters that change the quality and speed of transmission. For this reason, it is recommended that the assembly of these connectors be entrusted to qualified technicians who carry out the connection on site. Gold: The transmission speed of the new standards Category 6, 6A, 7 ... require a care more and more demanding in the implementation of the connection of the connector on the cable; and therefore an ever greater skill on the part of the technicians who are in charge of connecting the connectors to the cables. A little clumsiness during the installation of the cable connector in its front plate, may be enough to change the quality and speed of the transmission of information. In this case, the test will show that the "Link" does not give the measurements prescribed by the standards: - ISO / IEC 11801 EN 50173 ANSI / TIA / EIA-568-B-2 and 2-1. Measurements found in the tests may then mention values rejected by the standards: Refused measures for category 6: A RETURN LOSS level <10 db. A NEXT <at 35.30 db. ACR-F <16.20 db. Refused measures for Category 6A: RETURN LOSS <8 dB; A NEXT <at 26.70 dB. ACR-F <10.20 dB. It is therefore found that the standards are particularly severe for categories above category 5 and do not tolerate rough wiring of the connector on the cable or a random holding of the cable on the female connector that could change the measurements at the slightest manipulation. In addition, there are situations that are not favorable to the quality of wiring on site: There is the renewal of the staff of the teams of technicians who erodes the quality of the assembly. Recruitment of untrained temporary staff. The conditions of advancement of the works which do not offer the order necessary for good working conditions. Some sites are not heated in winter or overexposed to the sun in the summer and, therefore, do not allow technicians, yet competent, to have the best dexterity to connect the connectors. Most installer companies have the necessary skills to build Category 5 wired networks according to standards. Categories above 5 significantly limit the population of skilled technicians. Added to this is the risk of a wrong radius of curvature output connector, when positioning the connector in the front plate, or simply a misfortune pulling the connector before positioning in the front plate. These unfortunate pulls of the cable 'loosens' it at the output of the connector and changes the place of the conductive son in the connector. This maneuver radically changes the measures of NEXT and RL. For the installation of the connectors, the installers use connectors 20 composed of a series of conductive contacts (terminal block) on which the conductors of the cable are electrically connected and this assembly is trapped in the housing of the connector. The output of the connector includes a cable stop finger also acting as a mass recovery. The cable is fixed to this stop finger by means of a plastic collar. This standard attachment of the cable to the connector does not provide a cable connection to the connector foolproof (hence the traction problems mentioned above). The invention proposes a solution for secure and managed construction: For this purpose, the invention relates to the construction of a wired network in a room between a server and the workstations distributed in space by means of cables. link capable of carrying computer signals, these cables being

equipped at both ends with a suitable connector, this construction being characterized in that prior to the installation of the cables in the building, a suitable length of cable is determined for each connection, the connectors are connected in the factory on each end of said cable by permanently securing the cables containing the conductors by injection of a material which solidifies immobilizes the conductors in the envelope of the connectors and only after this installation of the connectors, the cables are placed in place of 'use.

It is once the "link" completely built and reinforced by the injection of material in the connectors (and, preferably, out of the connectors) that one installs it in the building. This construction is therefore characterized by the prior manufacture (prefabrication) of the "links" (cables with female connectors at each end) in the factory to the dimensions prescribed in the CCTP with a plastic injection finish or HOTMEL hot and under pressure which, advantageously reinforces the connection by solidifying. The strength of the "Link" is considerably increased. Fixing by injection eliminates any risk of modification of the measures that may arise from improper handling especially when inserting the connector in its front plate. The risk of deformation of the connector is considerably reduced. The skill level of the technicians in charge of the installation is less problematic. The invention will be better understood on reading the following description given by way of non-limiting example with reference to the drawings which represent: FIG 1 partial view of a room equipped with a wired network. FIG 2 to 9: the steps of construction of a cable with two twisted pairs. FIG 10: a section of a connector after injection. Referring to the drawing, we see a room equipped with a network. This drawing includes a cabinet (brewing bay) 1 computer. Two computer stations are located in this room.

Each station has access to a computer network via single or multiple sockets 4 fixed on the wall or on a column or on the floor. These multiple outlets are still called hubs or dispatchers or subdistributors or nannies.

An intermediate cord that connects the wall-mounted female wall socket to the workstation computer (called the "patch cord") connects the computer to the network. When the network is wired in a room, connection cables 5 capable of carrying computer signals provided at each of the two ends of a suitable connector 6 carry the information between the server and the different workstations. The connecting cables used are often twisted pair cables comprising at least one pair of electrically insulated and twisted electrical conductors 5A. The set of twisted pairs is protected by an electromagnetic shielding (for cables belonging to FTP SFTP S-STP families). These shielded cables provide for grounding and the whole is protected by a protective sheath of plastic material. A connector 6 comprises a housing 7 containing an assembly 8 of electrical contacts on which the ends of the conductors 5A of the cable 20 are fixed in a suitable configuration. Before placing the cables in the building to be wired, for each link, a length of cable appropriate to the distance between the computer means is determined according to what is prescribed in the CCTP. The connectors 6 are connected at the factory on each end of the cable and subsequently immobilized. Once these operations are completed that the routing of cables (Links) on the site will be carried out and the cables set up. Thus, the installation will be faster and of excellent quality. The twisted pair electrical connections are made in factories on appropriate cable lengths with specialized and certified personnel having optimum means and conditions of implementation.

Despite the presence of the connectors, the cables can be put in place on canalis, marine slabs or trunking in plenums (false floors and false ceilings) which equip more and more often the modern premises. FIGS. 2 to 9 show the various steps of mounting a connector 5 on its cable. Mounting is here done on a particular connector but it can be another type of connector. Figure 2 shows a stripped cable with four twisted pairs engaged on a connector terminal block 8A. Figure 3 shows the two pairs stripped with the conductors placed on the terminal block. Figures 4 and 5 show the establishment of a housing housing the terminal block. Figure 6 shows the cable obtained after installation of the housing. After this operation, the connectors are placed in a mold 10 FIG. 7 where the fluid material is injected under pressure and hot, which momentarily penetrates into the housing in order to immobilize the conductors. Fig 8 shows the connectors 6 after opening the mold and it is found that the material has come encase also the cable near the output of the connector by securing the stop finger cable and overmolding. The immobilization of the cable on the connector is total. Figure 9 shows the completed cable. Figure 10 shows the material 11 having filled the housing to immobilize the conductors 5A and the end portion of the protective sheath of the cable on the housing. The link connection solution at the factory to which the 25 overmoulding is added makes it possible to build solid and reliable "links" whose characteristics are totally and definitively fixed. Testing operations before and after the injection of the fluid material make it possible to check the quality of the completed "link". This test verification then certifies that the link fully meets the measures prescribed by the standards. The connection is made under optimal mounting conditions. The overmolding is done with injection equipment that could not be moved anywhere on the installation site of the network. (Multi-ton presses required for overmoulding.) The injection pressure is sufficient for the material to flow into the case to drown the connecting wires. The injected material passes through the interstices of the case. Factory assembly allows the use of experienced and certified assembly teams. For overmolding, use a plastic material or LSOH or HOTMELT type glue. The entire network is made in the factory and is similar to a prefabricated "KIT" whose manufacture is industrialized. We test each cable ("Links") and we attach the test sheet of each cable with the delivery. In a set containing sub-assemblies identified by 15 buildings, floors, offices, the network cables previously manufactured are grouped together for routing to the place of installation. The cables (The Links) are then installed in the building by a professional installer. It is therefore: To build a prefabricated network in the factory which forms a "KIT" with additional added value related to the immobilization of the connectors. This "KIT" near the installation has, upon arrival on the site to be installed, test certificates for each "link" proving the quality of links to standards. The "KIT" solution is complemented by an associated logistics service that makes it possible to manage the arrival of the cables in the right place, in the right office, at the right time on the site to be installed. This industrial, connectivity and logistics expertise enables small and medium sized cable network installers to strengthen: - Their expertise in the study of the implementation of a high-speed cable network.

Their low current installer skills by providing a product of superior quality, Their Logistics optimizing the organization of the installation and the time of installation on site.

Claims (3)

REVENDICATIONS1. Method of constructing a wired network in a room between a server s and at least service stations distributed in space by means of connection cables (5) able to convey computer signals provided at each of the two ends of said cable a connector (6) suitable, this construction being characterized in that before the introduction of the cables, is determined for each connection a suitable length of cable 10 and is installed in the factory, the connectors on each end of said cable by definitively fixing the cables containing the pairs of twisted conductors by injecting a material (11) which, by solidifying, immobilizes the conductors (5A) in the envelope of the connectors and only after this installation of the connectors, are put in place the cables at the place of use. 2. A method of constructing a wired network according to claim 1 characterized in that it also immobilizes the cable on the connector by injection of material. 3. A method of constructing a wired network according to claim 1 or 2 characterized in that the lengths of cables (5) to be fitted with connectors (6) for the construction of a network are ascertained. On each end of each cable, a connector is placed, each connector mounted on the cable is placed in a mold, a momentary fluid material is injected into the mold which will fill at least the inside of the connector to block the conductors of the cable. by solidifying inside the connector, each cable is tested, and the cables of the network are grouped into a set and subassemblies if necessary in order to route them to the site to be installed with an appropriate logistic service.